KR19980044694A - Car TV RF Receiver - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an RF receiver of a vehicle TV, and in particular, by implementing a multi-band dedicated antenna as a glass antenna and receiving a high frequency (RF) signal of each band through them, and then amplifying / mixing it to always achieve optimal reception performance. The present invention relates to an RF receiver of a vehicle TV that can be maintained.

The present invention provides a plurality of glass antennas for receiving a plurality of band-specific RF signals covering a TV broadcast frequency band, a plurality of filter circuits connected to the respective glass antennas to pass only corresponding frequency band signals, and the respective filters. A plurality of RF amplifiers connected to the circuit for low noise amplification of each of the filtered RF band signals, and a plurality of RF amplifiers commonly connected to the outputs of the respective RF amplifiers, and mixing the RF signals of the respective bands and simultaneously processing the mixed RF signals Characterized in that it consists of a mixed circuit for extracting and outputting the frequency signal.

Description

Car TV RF Receiver

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an RF receiver of a vehicle TV, and in particular, by implementing a multi-band dedicated antenna as a glass antenna and receiving a high frequency (RF) signal of each band through them, and then amplifying / mixing it to always achieve optimal reception performance. The present invention relates to an RF receiver of a vehicle TV that can be maintained.

In general, a TV receiver receives an RF signal through a Yagi antenna having a plurality of poles arranged at regular intervals, and then mixes the difference frequency signal, that is, an intermediate frequency signal, by mixing with a local oscillation frequency that is changed according to the station tuning in the tuner. By processing, the video signal is applied to the CRT and the audio signal is applied to the speaker to watch the video and audio.

However, in most moving vehicles, a pole antenna, a loop antenna, a glass antenna, etc., which have a directivity in a certain direction and have a compact structure instead of a large sized yagi antenna, are adopted.

However, although many efforts have been made to improve reception performance / durability of pole antennas, loop antennas, glass antennas, and the like, which are currently used as vehicle antenna systems, it is difficult to always share the same electric field in a moving vehicle. Therefore, the demand of antenna system that can satisfy various local conditions is increasing day by day, and many researches and experiments are conducted by each company.

One of them is the diversity antenna system. This antenna system installs a plurality of antennas with different directivity characteristics in a vehicle dense area or an area with radio interference, and among them, the reception performance is best depending on the attitude of the vehicle. The system is designed to automatically switch to this good side.

The diversity antenna system is an RF signal processing system using the output of the antenna having the best electric field strength or SN ratio in order to alleviate the effects of fading.

However, such a system has a disadvantage in that switching noise occurs when switching from one antenna to another of a plurality of antennas, and also has a disadvantage in that voice is frequently shorted during automatic switching operation.

In addition, the vehicle antenna for TV has a disadvantage that the reception performance cannot be improved by the existing diversity antenna system in the weak field because the TV broadcasting band is wideband.

Therefore, the present invention has been made in view of the problems of the prior art, the object of which is to implement a multi-band dedicated antenna as a glass antenna by receiving a high frequency (RF) signal of each band through them by amplifying / mixing them An object of the present invention is to provide an RF receiver for a vehicle TV that can always maintain optimal reception performance.

1 is a schematic block diagram showing a configuration of an RF receiver of a vehicle TV according to the present invention.

* Description of the symbols for the main parts of the drawings *

1; glass antenna 2; RF signal processor

3; AV set 11, 13, 15; first to third glass antenna

21; LPF23; BPF

25; HPF27, 29, 31; RF amplifier

33; mixed / auto gain control circuit

In order to achieve the above object, the present invention provides a plurality of glass antennas for receiving a plurality of band-specific RF signals covering a TV broadcast frequency band, and a plurality of glass antennas connected to each of the glass antennas to pass only corresponding band frequency signals. A filter circuit, a plurality of RF amplifiers connected to the respective filter circuits for low noise amplification of the filtered band RF signal, and commonly connected to the outputs of the respective RF amplifiers and mixed and mixed at the same time. It provides an RF receiver of a vehicle TV comprising a mixed circuit for signal processing the RF signal and extracts and outputs the intermediate frequency signal.

The plurality of glass antennas may include a first glass antenna for receiving an RF signal for a VHF low channel, a second glass antenna for receiving an RF signal for a VHF high channel, and a third glass for receiving an RF signal for an UHF band. It consists of an antenna.

The plurality of filter circuits may include a low pass filter connected to the first glass antenna to pass only a VHF low band signal, a band pass filter connected to the second glass antenna and passing only a VHF high band signal, and the first filter antenna. It is characterized by comprising a high pass filter connected to the three-glass antenna to pass only the UHF band.

As described above, in the present invention, a wideband TV reception band is divided into VHF low, VHF high, and UHF bands to implement a dedicated antenna capable of receiving RF signals of each band as a glass antenna, and each band received through them. Since a single RF output signal is obtained by amplifying and mixing the respective RF signals, there is no automatic switching noise generation as in the conventional diversity antenna system and it is possible to maintain optimal reception performance at all times.

EXAMPLE

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a schematic block diagram showing a configuration of an RF receiver of a vehicle TV according to the present invention. As shown therein, the RF receiver of the present invention implements an antenna system configuration as a glass antenna.

That is, in the present invention, the wideband TV reception band is divided into three bands, and the first glass antenna 11 for the VHF low channel (2CH to 6CH) and the VFH high for receiving the RF signal of each band. The glass antenna 1 was formed by dividing the second glass antenna 13 for the (HIGH) channel (7CH to 13CH) and the third glass antenna (15) for the UHF band (14CH to 69CH).

In addition, the RF signal processor 2 connected to the glass antenna 1 is connected to each of the first to third antennas 11, 13, and 15 to pass only the respective reception band signals in the received RF signal, that is, A low pass filter (LPF) 21 is connected to the first glass antenna 11 to pass only the VHF low band signal, and a band pass filter (BPF) which passes only the VHF high band signal to the second glass antenna 13. 23 is connected, and a high pass filter (HPF) 25 for passing only the UHF band is connected to the third glass antenna 15.

Each of the filters 21, 23, and 25 is connected to RF amplifiers 27, 29, and 31 for low noise band amplification of the received signal. The amplified three-band RF signals are mixed / automatic gain through a common output line. The control circuit (MixerAGC) 33 is supplied to generate an intermediate frequency (IF) signal according to the user's selection.

Thereafter, the IF signal of the RF signal processor 2 is applied to the AV set 3 to output video and audio.

The operation of the RF receiver of the present invention configured as described above will be described in detail below.

First, in the present invention, the VHF low channel (2CH) through the first glass antenna 11 through the first to the third glass antenna (11, 13, 15) configured as a dedicated antenna capable of receiving the RF signal of the corresponding band set RF signal of ˜6CH) is received, VHF high channel (7CH to 13CH) RF signal is received through the second glass antenna 13, and UHF band (14CH to 69CH) RF is received through the third glass antenna 15. The signal is received and output.

Thereafter, the received VHF low channel RF signal passes through the low pass filter 21, and the high frequency signals other than the VHF low channel RF signal are removed, and the VHF high channel RF signal passes through the band pass filter 23 and the VHF high channel. Frequency signals lower or higher than the band of the channel are suppressed, and the UHF band RF signal passes through the high pass filter 25 while the frequency signals lower than the UHF band are removed.

As described above, the RF signals of each band filtered through only the frequency signals of the corresponding band while passing through the respective filters 21, 23, and 25 are output by low-noise band amplification from the RF amplifiers 27, 29, and 31, respectively.

The three band amplified outputs of the three RF amplifiers 27, 29 and 31 are then applied to a common output terminal and supplied to the mixed / automatic gain control circuit 33. The three-band amplified output is mixed with a local oscillation frequency generated by the RF signal processor 2 by determining a frequency according to user selection while signal mixing is performed in a mixer of the mixing / automatic gain control circuit 33.

Then at the mixer output an IF signal having a difference frequency between the band mixed RF signal and the local oscillation frequency is extracted and fed to the AV set 3. In addition, in the mixing / automatic gain control circuit 33, automatic gain control is performed in a well-known manner so as to obtain a stable picture against a wide range of variation of the input signal due to the difference in the intensity of the received radio waves.

Therefore, the video and audio signals are demodulated and signal-processed from the AV set 3 in a known manner and output through the video and audio output device.

As described above, in the present invention, a wideband TV reception band is divided into VHF low, VHF high, and UHF bands to implement a dedicated antenna capable of receiving RF signals of each band as a glass antenna, and each band received through them. Since a single RF output signal is obtained by amplifying and mixing the respective RF signals, there is no automatic switching noise generation as in the conventional diversity antenna system and it is possible to maintain optimal reception performance at all times.

Furthermore, since the present invention is not an automatic switching method, the sound short circuit phenomenon due to the automatic switching is eliminated, and the configuration of the antenna system is simple, thereby reducing the cost.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments and is not limited to the spirit of the present invention. Various changes and modifications can be made by those who have

Claims (3)

A plurality of glass antennas for receiving a plurality of band-specific RF signals covering a TV broadcasting frequency band; A plurality of filter circuits connected to each of the glass antennas to pass only a corresponding band frequency signal; A plurality of RF amplifiers connected to the respective filter circuits to low noise amplify each filtered RF band signal; An RF receiver of a vehicle TV, which is commonly connected to the outputs of the respective RF amplifiers, and is composed of a mixed circuit for mixing the RF signals for each band and simultaneously processing the mixed RF signals to extract and output an intermediate frequency signal. . The method of claim 1, wherein the plurality of glass antenna A first glass antenna for receiving an RF signal for a VHF low channel; A second glass antenna for receiving an RF signal for a VHF high channel, RF receiver for a vehicle TV, characterized in that consisting of a third glass antenna for receiving the RF signal for the UHF band. The method of claim 2, wherein the plurality of filter circuits A low pass filter connected to the first glass antenna to pass only a VHF low band signal; A band pass filter connected to the second glass antenna to pass only a VHF high band signal; And a high pass filter connected to the third glass antenna so as to pass only a UHF band.